Transcript Document
Use of radiation source in
consumer products
IAEA
International Atomic Energy Agency
Day 6 – Lecture 7
Objective
• To describe the various types of consumer
products that contain radioactive materials,
• To discuss the radiological protection
principles and to show how they are applied
to the regulation of consumer products
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Contents
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Early consumer products
Ionization Chamber Smoke Detectors
Time Pieces
Anti-static brushes and
Other products
Radiation Protection
Justified or unjustified uses
Exemptions
Disposal
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A long history
• When radiation and radioactivity were first
discovered there was a rush to exploit this
new “wonder of science”.
• The emphasis was on “benefit” or what was
thought might be a benefit with little thought
or awareness of harm.
• This lead to “products” available to the public
– indeed heavily marketed – such as:IAEA
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Early consumer products
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Radium compress for rheumatism
Radium shoe liners
Radium face cream
Radon “sparklets” bulbs to produce radon
water
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Glow-in-the-dark products
• Radium/phosphor paints used for:
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Clocks and watches
Aircraft instrument dials
Bell pushes
Boat instruments and signs
Compasses
Car speedometers and dials
Thermostat dials
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Radiation protection
• In the 1950s came recognition that such
widespread distribution of products with
essentially no control was undesirable
• Justification was introduced – or at least
avoidance of unnecessary exposure
• 1960s – 1970s re-examination of existing
products and consideration of new
products was at its height
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Products
• Before dealing with the application of
radiation protection principles and the
regulation of products it is useful to have
more idea of the types of products available.
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Ionization Chamber Smoke
Detectors
• The most widely used product
• Uses an alpha source to increase sensitivity
to the out-of-balance current between a
sealed chamber and one open to admit
smoke
• Am-241 up to 40 kBq
• Annual doses around 0.01-0.2 μSv
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Timepieces
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Alarm clocks and watches
Were very common but much less so now
Radium paint replaced by tritium or Pm-147
Annual dose to wearer around 0.1μSv
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Gaseous Tritium Light Sources (GTLS)
• Glass tubes coated internally with a
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phosphor and filled with tritium gas
Primarily commercial uses such as EXIT
signs
Largest domestic use was in UK to
illuminate circular “trimphone” dials
Also used in watches, compasses, fishing
floats, light switches, bell pushes
Activity 10-15 GBq
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Lightening preventers
• An alpha source on the end of a lightening
rod so the additional ionization would attract
the lightening
• Effectiveness now seriously doubted
• Removed for disposal where encountered
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Anti-static brushes
• Use an alpha source with a fine haired brush
to dispel static electricity
• Used with records (vinyl) and photographic
negatives
• 18 MBq Po-210 or 1 MBq Am-241
• Popularity has declined recently
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Thoriated gas mantles
• For use in incandescent lamps for camping
and caravanning, but also home lighting in
some countries.
• Doses mainly from inhalation and ingestion
during burning and from broken mantles
during replacement
• Annual doses a few μSv but could be more
for home lighting
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Coloured enamels
• Uranium salts are used to give a strong
yellow colour to enamels
• Pottery, cloisonné jewellery, badges, key
fobs etc
• Doses very low but for items kept in a pocket
(key fobs) could be a few μSv
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Gemstones
• Irradiation can enhance the colour of
gemstones and increase the value
• X-rays do not cause any subsequent dose
• Neutron irradiation can induce activity,
minimised by choice of stones to avoid
impurities and storage after irradiation for
decay
• Doses to wearers claimed to be small
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Other products
• Camera lenses containing thorium
• False teeth containing uranium
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Radiation Protection Principles
There are three main principles of radiation
protection;
• Justification
• Optimisation
• Dose limits
All are really used when dealing with
consumer products
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Justification
• “No practice or source within a practice
should be authorized unless the practice
produces sufficient benefit to the exposed
individuals or to society to offset the
radiation harm that it might cause i.e. the
practice should be justified, taking into
account social, economic and other relevant
factors”.
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Unjustified uses
• The following practices are deemed to be not
justified :
• (a) practices involving food, beverages, cosmetics
or any other commodity or product intended for
ingestion, inhalation or percutaneous intake by, or
application to, a human being; and
• (b) practices involving the frivolous use of radiation
or radioactive substances in commodities or
products such as toys and personal jewellery or
adornments.”
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Also unjustified
• Distribution to the public of sources or
radioactive substances not in a complete
consumer product
• The use cannot be predicted • so the benefit and detriment cannot be
assessed.
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Optimisation
Optimization requires the:
• magnitude of individual doses
• number of people exposed, and the
• likelihood of incurring exposures
to be kept As Low As Reasonably Achievable
(the ALARA principle).
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Optimisation
• Optimisation is more qualitative and designoriented:
• Use most appropriate radionuclide for half-life,
radiation type, energy and minimum activity
necessary for product to work
• Chemical and physical form for safety in use
and accidents
• Mechanical construction to prevent access to
source
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Dose limitation
• Dose limits should ensure that no individual
faces an unacceptable risk in normal
circumstances
• Dose limits for public apply but these cover
several sources so normally for consumer
products a small fraction of 1 mSv.
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Exemption
• The principles of exemption in the BSS have
been used by some authorities for consumer
products, but not unjustified products
• Limit for each product 10 µSv individual dose to
user
• Collective dose < 1 mSv per year
• If single product activity less than exemption
levels in BSS then can be automatically
exempted
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Labelling
• Safety of products should not depend on
labelling so not essential requirement
• Desirable to identify product, inform
consumer and reduce risk of misuse
• Label may be on package where impractical
on product e. g. gas mantles
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Disposal
• Some authorities have tried to impose
restrictions but not really practical for
members of the public.
• Disposal in normal household refuse should
be part of safety assessment and approval
implies that this is safe.
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Conclusions
• Large numbers of consumer products in use
in most countries
• Decision on whether to permit a particular
product usually lies with National Regulatory
Authority
• Permitted products need optimised design
and good quality control.
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Where to Get More Information
International Atomic Energy Agency, Postgraduate
Educational Course in Radiation Protection and the Safety
of Radiation Sources (PGEC), Training Course Series 18,
Vienna (2002)
IAEA safety standards, Radiation Protection and Safety
of Radiation Sources: International Basic Safety Standards,
Interim Edition (GSR Part 3, 2011).
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